// Filename: referenceCount.I
// Created by:  drose (23Oct98)
//
////////////////////////////////////////////////////////////////////
//
// PANDA 3D SOFTWARE
// Copyright (c) Carnegie Mellon University.  All rights reserved.
//
// All use of this software is subject to the terms of the revised BSD
// license.  You should have received a copy of this license along
// with this source code in a file named "LICENSE."
//
////////////////////////////////////////////////////////////////////

template<class Base>
TypeHandle RefCountProxy<Base>::_type_handle;

template<class Base>
TypeHandle RefCountObj<Base>::_type_handle;

////////////////////////////////////////////////////////////////////
//     Function: ReferenceCount::Constructor
//       Access: Protected
//  Description: The ReferenceCount constructor is protected because
//               you almost never want to create just a ReferenceCount
//               object by itself, and it's probably a mistake if you
//               try.
//
//               ReferenceCount doesn't store any useful information
//               in its own right; its only purpose is to add
//               reference-counting to some other class via
//               inheritance.
////////////////////////////////////////////////////////////////////
INLINE ReferenceCount::
ReferenceCount() {
  _weak_list = (WeakReferenceList *)NULL;
  _ref_count = 0;
#ifdef DO_MEMORY_USAGE
  MemoryUsage::record_pointer(this);
#endif
}

////////////////////////////////////////////////////////////////////
//     Function: ReferenceCount::Copy Constructor
//       Access: Protected
//  Description: The copies of reference-counted objects do not
//               themselves inherit the reference count!
//
//               This copy constructor is protected because you almost
//               never want to create just a ReferenceCount object by
//               itself, and it's probably a mistake if you try.
////////////////////////////////////////////////////////////////////
INLINE ReferenceCount::
ReferenceCount(const ReferenceCount &) {
  _weak_list = (WeakReferenceList *)NULL;
  _ref_count = 0;
#ifdef DO_MEMORY_USAGE
  MemoryUsage::record_pointer(this);
#endif
}

////////////////////////////////////////////////////////////////////
//     Function: ReferenceCount::Copy Assignment Operator
//       Access: Protected
//  Description: The copies of reference-counted objects do not
//               themselves inherit the reference count!
//
//               This copy assignment operator is protected because
//               you almost never want to copy just a ReferenceCount
//               object by itself, and it's probably a mistake if you
//               try.  Instead, this should only be called from a
//               derived class that implements this operator and then
//               calls up the inheritance chain.
////////////////////////////////////////////////////////////////////
INLINE void ReferenceCount::
operator = (const ReferenceCount &) {
  nassertv(this != NULL);

  // If this assertion fails, our own pointer was recently deleted.
  // Possibly you used a real pointer instead of a PointerTo at some
  // point, and the object was deleted when the PointerTo went out of
  // scope.  Maybe you tried to create an automatic (local variable)
  // instance of a class that derives from ReferenceCount.  Or maybe
  // your headers are out of sync, and you need to make clean in
  // direct or some higher tree.
  nassertv(_ref_count != deleted_ref_count);
}

////////////////////////////////////////////////////////////////////
//     Function: ReferenceCount::Destructor
//       Access: Public, Virtual
//  Description: 
////////////////////////////////////////////////////////////////////
ReferenceCount::
~ReferenceCount() {
  TAU_PROFILE("ReferenceCount::~ReferenceCount()", " ", TAU_USER);
  nassertv(this != NULL);

  // If this assertion fails, we're trying to delete an object that
  // was just deleted.  Possibly you used a real pointer instead of a
  // PointerTo at some point, and the object was deleted when the
  // PointerTo went out of scope.  Maybe you tried to create an
  // automatic (local variable) instance of a class that derives from
  // ReferenceCount.  Or maybe your headers are out of sync, and you
  // need to make clean in direct or some higher tree.
  nassertv(_ref_count != deleted_ref_count);

  // If this assertion fails, we're trying to delete a static object
  // that still has an outstanding reference count.  You should make
  // sure that all references to your static objects are gone by the
  // time the object itself destructs.
  nassertv(_ref_count <= local_ref_count);

  // If this assertion fails, the reference counts are all screwed
  // up altogether.  Maybe some errant code stomped all over memory
  // somewhere.
  nassertv(_ref_count >= 0);

  // If this assertion fails, someone tried to delete this object
  // while its reference count was still positive.  Maybe you tried
  // to point a PointerTo at a static object (a local variable,
  // instead of one allocated via new)?  The test below against 0x7f
  // is supposed to check for that, but it's a pretty hokey test.

  // Another possibility is you inadvertently omitted a copy
  // constructor for a ReferenceCount object, and then bitwise
  // copied a dynamically allocated value--reference count and
  // all--onto a locally allocated one.
  nassertv(_ref_count == 0 || _ref_count == local_ref_count);

  // Tell our weak reference holders that we're going away now.
  if (_weak_list != (WeakReferenceList *)NULL) {
    delete (WeakReferenceList *)_weak_list;
    _weak_list = (WeakReferenceList *)NULL;
  }

#ifndef NDEBUG
  // Ok, all clear to delete.  Now set the reference count to
  // deleted_ref_count, so we'll have a better chance of noticing if
  // we happen to have a stray pointer to it still out there.
  _ref_count = deleted_ref_count;
#endif

#ifdef DO_MEMORY_USAGE
  MemoryUsage::remove_pointer(this);
#endif
}

////////////////////////////////////////////////////////////////////
//     Function: ReferenceCount::get_ref_count
//       Access: Published
//  Description: Returns the current reference count.
////////////////////////////////////////////////////////////////////
INLINE int ReferenceCount::
get_ref_count() const {
#ifdef _DEBUG
  test_ref_count_integrity();
#endif
  return AtomicAdjust::get(_ref_count);
}

////////////////////////////////////////////////////////////////////
//     Function: ReferenceCount::ref
//       Access: Published
//  Description: Explicitly increments the reference count.  User code
//               should avoid using ref() and unref() directly, which
//               can result in missed reference counts.  Instead, let
//               a PointerTo object manage the reference counting
//               automatically.
//
//               This function is const, even though it changes the
//               object, because generally fiddling with an object's
//               reference count isn't considered part of fiddling
//               with the object.  An object might be const in other
//               ways, but we still need to accurately count the
//               number of references to it.
////////////////////////////////////////////////////////////////////
INLINE void ReferenceCount::
ref() const {
  TAU_PROFILE("void ReferenceCount::ref()", " ", TAU_USER);
#ifdef _DEBUG
  nassertv(test_ref_count_integrity());
#endif

  AtomicAdjust::inc(((ReferenceCount *)this)->_ref_count);
}

////////////////////////////////////////////////////////////////////
//     Function: ReferenceCount::unref
//       Access: Published, Virtual
//  Description: Explicitly decrements the reference count.  Note that
//               the object will not be implicitly deleted by unref()
//               simply because the reference count drops to zero.
//               (Having a member function delete itself is
//               problematic.) However, see the helper function
//               unref_delete().
//
//               User code should avoid using ref() and unref()
//               directly, which can result in missed reference
//               counts.  Instead, let a PointerTo object manage the
//               reference counting automatically.
//
//               This function is const, even though it changes the
//               object, because generally fiddling with an object's
//               reference count isn't considered part of fiddling
//               with the object.  An object might be const in other
//               ways, but we still need to accurately count the
//               number of references to it.
//
//               The return value is true if the new reference count
//               is nonzero, false if it is zero.
////////////////////////////////////////////////////////////////////
INLINE bool ReferenceCount::
unref() const {
  TAU_PROFILE("void ReferenceCount::unref()", " ", TAU_USER);
#ifdef _DEBUG
  nassertr(test_ref_count_integrity(), 0);

  // If this assertion fails, you tried to unref an object with a
  // zero reference count.  Are you using ref() and unref()
  // directly?  Are you sure you can't use PointerTo's?
  nassertr(_ref_count > 0, 0);
#endif
  return AtomicAdjust::dec(((ReferenceCount *)this)->_ref_count);
}


////////////////////////////////////////////////////////////////////
//     Function: ReferenceCount::test_ref_count_integrity
//       Access: Published
//  Description: Does some easy checks to make sure that the reference
//               count isn't completely bogus.  Returns true if ok,
//               false otherwise.
////////////////////////////////////////////////////////////////////
INLINE bool ReferenceCount::
test_ref_count_integrity() const {
#ifndef NDEBUG
  return do_test_ref_count_integrity();
#else
  return true;
#endif
}

////////////////////////////////////////////////////////////////////
//     Function: ReferenceCount::test_ref_count_nonzero
//       Access: Published
//  Description: Does some easy checks to make sure that the reference
//               count isn't zero, or completely bogus.  Returns true
//               if ok, false otherwise.
////////////////////////////////////////////////////////////////////
INLINE bool ReferenceCount::
test_ref_count_nonzero() const {
#ifndef NDEBUG
  return do_test_ref_count_nonzero();
#else
  return true;
#endif
}

////////////////////////////////////////////////////////////////////
//     Function: ReferenceCount::local_object
//       Access: Public
//  Description: This function should be called, once, immediately
//               after creating a new instance of some
//               ReferenceCount-derived object on the stack.
//
//               This allows the object to be passed to functions that
//               will increment and decrement the object's reference
//               count temporarily, and it will prevent the object
//               from being deleted (inappropriately), when the
//               reference count returns to zero.  It actually
//               achieves this by setting a large positive value in
//               the reference count field.
////////////////////////////////////////////////////////////////////
INLINE void ReferenceCount::
local_object() {
  // If this assertion fails, you didn't call this immediately after
  // creating a local object.
  nassertv(_ref_count == 0);

  _ref_count = local_ref_count;
}

////////////////////////////////////////////////////////////////////
//     Function: ReferenceCount::has_weak_list
//       Access: Public
//  Description: Returns true if this particular ReferenceCount object
//               has a WeakReferenceList created, false otherwise.  In
//               general, this will be true if there was ever a
//               WeakPointerTo created for this object (even if there
//               is not any for it now).
////////////////////////////////////////////////////////////////////
INLINE bool ReferenceCount::
has_weak_list() const {
  return _weak_list != (WeakReferenceList *)NULL;
}

////////////////////////////////////////////////////////////////////
//     Function: ReferenceCount::get_weak_list
//       Access: Public
//  Description: Returns the WeakReferenceList associated with this
//               ReferenceCount object.  If there has never been a
//               WeakReferenceList associated with this object,
//               creates one now.
////////////////////////////////////////////////////////////////////
INLINE WeakReferenceList *ReferenceCount::
get_weak_list() const {
  if (AtomicAdjust::get_ptr(_weak_list) == (WeakReferenceList *)NULL) {
    ((ReferenceCount *)this)->create_weak_list();
  }
  return (WeakReferenceList *)AtomicAdjust::get_ptr(_weak_list);
}

////////////////////////////////////////////////////////////////////
//     Function: ReferenceCount::weak_ref
//       Access: Public
//  Description: Adds the indicated PointerToVoid as a weak reference
//               to this object.
////////////////////////////////////////////////////////////////////
INLINE void ReferenceCount::
weak_ref(WeakPointerToVoid *ptv) {
  TAU_PROFILE("void ReferenceCount::weak_ref()", " ", TAU_USER);
  get_weak_list()->add_reference(ptv);
}

////////////////////////////////////////////////////////////////////
//     Function: ReferenceCount::weak_unref
//       Access: Public
//  Description: Removes the indicated PointerToVoid as a weak reference
//               to this object.  It must have previously been added
//               via a call to weak_ref().
////////////////////////////////////////////////////////////////////
INLINE void ReferenceCount::
weak_unref(WeakPointerToVoid *ptv) {
  TAU_PROFILE("void ReferenceCount::weak_unref()", " ", TAU_USER);
  nassertv(has_weak_list());
  ((WeakReferenceList *)_weak_list)->clear_reference(ptv);
}

////////////////////////////////////////////////////////////////////
//     Function: unref_delete
//  Description: This global helper function will unref the given
//               ReferenceCount object, and if the reference count
//               reaches zero, automatically delete it.  It can't be a
//               member function because it's usually a bad idea to
//               delete an object from within its own member function.
//               It's a template function so the destructor doesn't
//               have to be virtual.
////////////////////////////////////////////////////////////////////
template<class RefCountType>
INLINE void
unref_delete(RefCountType *ptr) {
  TAU_PROFILE("void unref_delete(RefCountType *)", " ", TAU_USER);
  // Although it may be tempting to try to upcast ptr to a
  // ReferenceCount object (particularly to get around inheritance
  // issues), resist that temptation, since some classes (in
  // particular, TransformState and RenderState) rely on a non-virtual
  // overloading of the unref() method.

  if (!ptr->unref()) {
    // If the reference count has gone to zero, delete the object.
    delete ptr;
  } 
}

////////////////////////////////////////////////////////////////////
//     Function: RefCountProxy::Constructor
//       Access: Public
//  Description:
////////////////////////////////////////////////////////////////////
template<class Base>
INLINE RefCountProxy<Base>::
RefCountProxy() {
}

////////////////////////////////////////////////////////////////////
//     Function: RefCountProxy::Copy Constructor
//       Access: Public
//  Description:
////////////////////////////////////////////////////////////////////
template<class Base>
INLINE RefCountProxy<Base>::
RefCountProxy(const Base &copy) : _base(copy) {
}

////////////////////////////////////////////////////////////////////
//     Function: RefCountProxy::Base Typecast Operator
//       Access: Public
//  Description:
////////////////////////////////////////////////////////////////////
template<class Base>
INLINE RefCountProxy<Base>::
operator Base &() {
  return _base;
}

////////////////////////////////////////////////////////////////////
//     Function: RefCountProxy::Base Typecast Operator
//       Access: Public
//  Description:
////////////////////////////////////////////////////////////////////
template<class Base>
INLINE RefCountProxy<Base>::
operator const Base &() const {
  return _base;
}

////////////////////////////////////////////////////////////////////
//     Function: RefCountProxy::init_type
//       Access: Public
//  Description:
////////////////////////////////////////////////////////////////////
template<class Base>
void RefCountProxy<Base>::
init_type() {
  do_init_type(Base);
  register_type(_type_handle,
                "RefCountProxy<" + get_type_handle(Base).get_name() + ">",
                get_type_handle(Base));
}


////////////////////////////////////////////////////////////////////
//     Function: RefCountObj::Constructor
//       Access: Public
//  Description:
////////////////////////////////////////////////////////////////////
template<class Base>
INLINE RefCountObj<Base>::
RefCountObj() {
}

////////////////////////////////////////////////////////////////////
//     Function: RefCountObj::Copy Constructor
//       Access: Public
//  Description:
////////////////////////////////////////////////////////////////////
template<class Base>
INLINE RefCountObj<Base>::
RefCountObj(const Base &copy) : Base(copy) {
}


////////////////////////////////////////////////////////////////////
//     Function: RefCountObj::init_type
//       Access: Public
//  Description:
////////////////////////////////////////////////////////////////////
template<class Base>
void RefCountObj<Base>::
init_type() {
#if defined(HAVE_RTTI) && !defined(__EDG__)
  // If we have RTTI, we can determine the name of the base type.
  string base_name = typeid(Base).name();
#else
  string base_name = "unknown";
#endif

  TypeHandle base_type = register_dynamic_type(base_name);

  ReferenceCount::init_type();
  _type_handle =
    register_dynamic_type("RefCountObj<" + base_name + ">",
                          base_type, ReferenceCount::get_class_type());
}
